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1,158 results on '"J Devin"'

1. Deterministic printing and heterointegration of single colloidal quantum dot photon sources

Author

Guymon, Gregory G., Nguyen, Hao A., Sharp, David, Nguyen, Tommy, Lei, Henry, Ginger, David S., Fu, Kai-Mei C., Majumdar, Arka, Cossairt, Brandi M., and MacKenzie, J. Devin

Subjects
Physics - Optics, Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Applied Physics
Abstract

Single nanoparticles are essential building blocks for next-generation quantum photonic technologies, however, scalable and deterministic heterointegration strategies have remained largely out of reach. Here, we present a new electrohydrodynamic (EHD) printing model that exploits nanoscale dielectrophoretics to precisely print single colloidal quantum dots (QDs) with accuracies allowing for fully-additive nanoscale photonics integration. Using colossal-shelled QDs solubilized in apolar solvents, this method overcomes continuum fluid surface energetics and stochastic limitations, achieving selective extraction and deposition of individual QDs at sub-zeptoliter volumes. Photoluminescence and autocorrelation function (g(2)) measurements confirm nanophotonic cavity-QD integration and the first single-photon emission from printed QDs. This additive, zero-waste nanomanufacturing process offers a scalable, sustainable pathway for heterointegrating nanomaterials down to the single particle level., Comment: Updated with correction to funding sources only

Published
2025

2. Improved reverse bias stability in p–i–n perovskite solar cells with optimized hole transport materials and less reactive electrodes

Author

Jiang, Fangyuan, Shi, Yangwei, Rana, Tanka R., Morales, Daniel, Gould, Isaac E., McCarthy, Declan P., Smith, Joel A., Christoforo, M. Greyson, Yaman, Muammer Y., Mandani, Faiz, Terlier, Tanguy, Contreras, Hannah, Barlow, Stephen, Mohite, Aditya D., Snaith, Henry J., Marder, Seth R., MacKenzie, J. Devin, McGehee, Michael D., and Ginger, David S.

Published
2024
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4. Architecture Optimization Dramatically Improves Reverse Bias Stability in Perovskite Solar Cells: A Role of Polymer Hole Transport Layers

Author

Jiang, Fangyuan, Shi, Yangwei, Rana, Tanka R., Morales, Daniel, Gould, Isaac, McCarthy, Declan P., Smith, Joel, Christoforo, Grey, Contreras, Hannah, Barlow, Stephen, Mohite, Aditya D., Snaith, Henry, Marder, Seth R., MacKenzie, J. Devin, McGehee, Michael D., and Ginger, David S.

Subjects
Physics - Chemical Physics
Abstract

We report that device architecture engineering has a substantial impact on the reverse bias instability that has been reported as a critical issue in commercializing perovskite solar cells. We demonstrate breakdown voltages exceeding -15 V in typical pin structured perovskite solar cells via two steps: i) using polymer hole transporting materials; ii) using a more electrochemically stable gold electrode. While device degradation can be exacerbated by higher reverse bias and prolonged exposure, our as-fabricated perovskite solar cells completely recover their performance even after stressing at -7 V for 9 hours both in the dark and under partial illumination. Following these observations, we systematically discuss and compare the reverse bias driven degradation pathways in perovskite solar cells with different device architectures. Our model highlights the role of electrochemical reaction rates and species in dictating the reverse bias stability of perovskite solar cells.

Published
2023

6. Arrhythmic song exposure increases ZENK expression in auditory cortical areas and nucleus taeniae of the adult zebra Finch.

Author

Jennifer Lampen, Katherine Jones, J Devin McAuley, Soo-Eun Chang, and Juli Wade

Subjects
Medicine, Science
Abstract

Rhythm is important in the production of motor sequences such as speech and song. Deficits in rhythm processing have been implicated in human disorders that affect speech and language processing, including stuttering, autism, and dyslexia. Songbirds provide a tractable model for studying the neural underpinnings of rhythm processing due to parallels with humans in neural structures and vocal learning patterns. In this study, adult zebra finches were exposed to naturally rhythmic conspecific song or arrhythmic song. Immunohistochemistry for the immediate early gene ZENK was used to detect neural activation in response to these two types of stimuli. ZENK was increased in response to arrhythmic song in the auditory association cortex homologs, caudomedial nidopallium (NCM) and caudomedial mesopallium (CMM), and the avian amygdala, nucleus taeniae (Tn). CMM also had greater ZENK labeling in females than males. The increased neural activity in NCM and CMM during perception of arrhythmic stimuli parallels increased activity in the human auditory cortex following exposure to unexpected, or perturbed, auditory stimuli. These auditory areas may be detecting errors in arrhythmic song when comparing it to a stored template of how conspecific song is expected to sound. CMM may also be important for females in evaluating songs of potential mates. In the context of other research in songbirds, we suggest that the increased activity in Tn may be related to the value of song for assessing mate choice and bonding or it may be related to perception of arrhythmic song as aversive.

Published
2014
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8. Facilitated acquisition of eyeblink conditioning in those vulnerable to anxiety disorders

Author

Meghan Davis Caulfield, J Devin McAuley, and Richard J Servatius

Subjects
Anxiety, Temperament, behavioral inhibition, classical eyeblink conditioning, trait anxiety, anxiety vulnerability, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Behavioral inhibition (BI) increases vulnerability to develop anxiety disorders and is typified by avoidance and withdrawal from novel objects, people, and situations. The present study considered the relationship between behavioral inhibition and temperamental risk factors, such as trait anxiety and acquisition rate of a classically conditioned eyeblink response. 174 healthy undergraduate students (mean age 20.3 years, 71.8% female) were given the State-Trait Anxiety Inventory and a battery of self-report measures of behavioral inhibition consisting of the Adult and Retrospective Measures of Behavioural Inhibition (AMBI/RMBI) and the Concurrent and Retrospective Self Report of Inhibition (CSRI/RSRI). Participants then underwent standard delay classical eyeblink conditioning consisting of 45 trials with a 500-ms CS overlapping and co-terminating with a 10-ms airpuff US. Individuals with higher scores on the AMBI and Trait Anxiety Inventory, but not the other measures, showed faster acquisition of a conditioned eyeblink response than individuals with lower scores. Results support a relationship between facilitated acquisition of inter-stimulus relationships and risk for anxiety, and suggest that some measures assessing anxiety vulnerability better capture this relationship than others.

Published
2013
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9. Perceptual distortions in pitch and time reveal active prediction and support for an auditory pitch-motion hypothesis.

Author

Molly J Henry and J Devin McAuley

Subjects
Medicine, Science
Abstract

A number of accounts of human auditory perception assume that listeners use prior stimulus context to generate predictions about future stimulation. Here, we tested an auditory pitch-motion hypothesis that was developed from this perspective. Listeners judged either the time change (i.e., duration) or pitch change of a comparison frequency glide relative to a standard (referent) glide. Under a constant-velocity assumption, listeners were hypothesized to use the pitch velocity (Δf/Δt) of the standard glide to generate predictions about the pitch velocity of the comparison glide, leading to perceptual distortions along the to-be-judged dimension when the velocities of the two glides differed. These predictions were borne out in the pattern of relative points of subjective equality by a significant three-way interaction between the velocities of the two glides and task. In general, listeners' judgments along the task-relevant dimension (pitch or time) were affected by expectations generated by the constant-velocity standard, but in an opposite manner for the two stimulus dimensions. When the comparison glide velocity was faster than the standard, listeners overestimated time change, but underestimated pitch change, whereas when the comparison glide velocity was slower than the standard, listeners underestimated time change, but overestimated pitch change. Perceptual distortions were least evident when the velocities of the standard and comparison glides were matched. Fits of an imputed velocity model further revealed increasingly larger distortions at faster velocities. The present findings provide support for the auditory pitch-motion hypothesis and add to a larger body of work revealing a role for active prediction in human auditory perception.

Published
2013
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11. Treatment of Anaerobic Digester Liquids via Membrane Biofilm Reactors: Simultaneous Aerobic Methanotrophy and Nitrogen Removal

Author

Egidio F. Tentori, Nan Wang, Caroline J. Devin, and Ruth E. Richardson

Subjects
wastewater treatment, membrane biofilm bioreactors, methanotrophs, anammox, nitrogen removal, denitrification, Biology (General), QH301-705.5
Abstract

Anaerobic digestion (AD) produces useful biogas and waste streams with high levels of dissolved methane (CH4) and ammonium (NH4+), among other nutrients. Membrane biofilm reactors (MBfRs), which support dissolved methane oxidation in the same reactor as simultaneous nitrification and denitrification (ME-SND), are a potential bubble-less treatment method. Here, we demonstrate ME-SND taking place in single-stage, AD digestate liquid-fed MBfRs, where oxygen (O2) and supplemental CH4 were delivered via pressurized membranes. The effects of two O2 pressures, leading to different O2 fluxes, on CH4 and N removal were examined. MBfRs achieved up to 98% and 67% CH4 and N removal efficiencies, respectively. The maximum N removal rates ranged from 57 to 94 mg N L−1 d−1, with higher overall rates observed in reactors with lower O2 pressures. The higher-O2-flux condition showed NO2− as a partial nitrification endpoint, with a lower total N removal rate due to low N2 gas production compared to lower-O2-pressure reactors, which favored complete nitrification and denitrification. Membrane biofilm 16S rRNA amplicon sequencing showed an abundance of aerobic methanotrophs (especially Methylobacter, Methylomonas, and Methylotenera) and enrichment of nitrifiers (especially Nitrosomonas and Nitrospira) and anammox bacteria (especially Ca. Annamoxoglobus and Ca. Brocadia) in high-O2 and low-O2 reactors, respectively. Supplementation of the influent with nitrite supported evidence that anammox bacteria in the low-O2 condition were nitrite-limited. This work highlights coupling of aerobic methanotrophy and nitrogen removal in AD digestate-fed reactors, demonstrating the potential application of ME-SND in MBfRs for the treatment of AD’s residual liquids and wastewater. Sensor-based tuning of membrane O2 pressure holds promise for the optimization of bubble-less treatment of excess CH4 and NH4+ in wastewater.

Published
2024
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14. Very-high-energy γ-Ray Emission from Young Massive Star Clusters in the Large Magellanic Cloud

Author

F. Aharonian, F. Ait Benkhali, J. Aschersleben, H. Ashkar, M. Backes, V. Barbosa Martins, R. Batzofin, Y. Becherini, D. Berge, K. Bernlöhr, M. Böttcher, J. Bolmont, M. de Bony de Lavergne, J. Borowska, R. Brose, A. Brown, F. Brun, B. Bruno, C. Burger-Scheidlin, S. Casanova, J. Celic, M. Cerruti, T. Chand, S. Chandra, A. Chen, J. Chibueze, O. Chibueze, G. Cotter, P. Cristofari, J. Devin, A. Djannati-Ataï, J. Djuvsland, A. Dmytriiev, K. Egberts, S. Einecke, K. Feijen, M. Filipovic, G. Fontaine, S. Funk, S. Gabici, Y. A. Gallant, J. F. Glicenstein, J. Glombitza, G. Grolleron, L. Haerer, B. Heß, J. A. Hinton, W. Hofmann, T. L. Holch, D. Horns, Zhiqiu Huang, M. Jamrozy, F. Jankowsky, I. Jung-Richardt, E. Kasai, K. Katarzyński, R. Khatoon, B. Khélifi, W. Kluźniak, Nu. Komin, K. Kosack, D. Kostunin, A. Kundu, R. G. Lang, S. Le Stum, A. Lemière, M. Lemoine-Goumard, J.-P. Lenain, F. Leuschner, J. Mackey, V. Marandon, G. Martí-Devesa, R. Marx, A. Mehta, A. Mitchell, R. Moderski, M. O. Moghadam, L. Mohrmann, A. Montanari, E. Moulin, M. de Naurois, J. Niemiec, S. Ohm, L. Olivera-Nieto, E. de Ona Wilhelmi, M. Ostrowski, S. Panny, U. Pensec, G. Peron, G. Pühlhofer, A. Quirrenbach, S. Ravikularaman, M. Regeard, A. Reimer, O. Reimer, H. Ren, M. Renaud, B. Reville, F. Rieger, G. Rowell, B. Rudak, E. Ruiz-Velasco, K. Sabri, V. Sahakian, H. Salzmann, A. Santangelo, M. Sasaki, J. Schäfer, F. Schüssler, H. M. Schutte, H. Sol, S. Spencer, Ł. Stawarz, S. Steinmassl, C. Steppa, K. Streil, I. Sushch, A. M. Taylor, R. Terrier, M. Tsirou, N. Tsuji, C. van Eldik, M. Vecchi, C. Venter, J. Vink, S. J. Wagner, R. White, A. Wierzcholska, M. Zacharias, A. A. Zdziarski, A. Zech, N. Żywucka, and H.E.S.S. Collaboration

Subjects
Young star clusters, Massive stars, Large Magellanic Cloud, Gamma-ray astronomy, Astrophysics, QB460-466
Abstract

The Tarantula Nebula in the Large Magellanic Cloud is known for its high star formation activity. At its center lies the young massive star cluster R136, providing a significant amount of the energy that makes the nebula shine so brightly at many wavelengths. Recently, young massive star clusters have been suggested to also efficiently produce very high-energy cosmic rays, potentially beyond PeV energies. Here, we report the detection of very-high-energy γ -ray emission from the direction of R136 with the High Energy Stereoscopic System, achieved through a multicomponent, likelihood-based modeling of the data. This supports the hypothesis that R136 is indeed a very powerful cosmic-ray accelerator. Moreover, from the same analysis, we provide an updated measurement of the γ -ray emission from 30 Dor C, the only superbubble detected at TeV energies presently. The γ -ray luminosity above 0.5 TeV of both sources is (2–3) × 10 ^35 erg s ^−1 . This exceeds by more than a factor of 2 the luminosity of HESS J1646−458, which is associated with the most massive young star cluster in the Milky Way, Westerlund 1. Furthermore, the γ -ray emission from each source is extended with a significance of >3 σ and a Gaussian width of about 30 pc. For 30 Dor C, a connection between the γ -ray emission and the nonthermal X-ray emission appears likely. Different interpretations of the γ -ray signal from R136 are discussed.

Published
2024
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25. Mechanism of Duration Perception in Artificial Brains Suggests New Model of Attentional Entrainment.

Author

Tehrani-Saleh, Ali, McAuley, J. Devin, and Adami, Christoph

Subjects
JUDGMENT (Psychology), PSYCHOMETRICS, STIMULUS & response (Psychology), ATTENTION, HUMAN beings
Abstract

While cognitive theory has advanced several candidate frameworks to explain attentional entrainment, the neural basis for the temporal allocation of attention is unknown. Here we present a new model of attentional entrainment guided by empirical evidence obtained using a cohort of 50 artificial brains. These brains were evolved in silico to perform a duration judgment task similar to one where human subjects perform duration judgments in auditory oddball paradigms. We found that the artificial brains display psychometric characteristics remarkably similar to those of human listeners and exhibit similar patterns of distortions of perception when presented with out-of-rhythm oddballs. A detailed analysis of mechanisms behind the duration distortion suggests that attention peaks at the end of the tone, which is inconsistent with previous attentional entrainment models. Instead, the new model of entrainment emphasizes increased attention to those aspects of the stimulus that the brain expects to be highly informative. [ABSTRACT FROM AUTHOR]

Published
2024
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37. Using Motor Tempi to Understand Rhythm and Grammatical Skills in Developmental Language Disorder and Typical Language Development

Author

Enikő Ladányi, Michaela Novakovic, Olivia A. Boorom, Allison S. Aaron, Alyssa C. Scartozzi, Daniel E. Gustavson, Rachana Nitin, Peter O. Bamikole, Chloe Vaughan, Elisa Kim Fromboluti, C. Melanie Schuele, Stephen M. Camarata, J. Devin McAuley, and Reyna L. Gordon

Subjects
Linguistics and Language, Neurology
Abstract

Children with developmental language disorder (DLD) show relative weaknesses on rhythm tasks beyond their characteristic linguistic impairments. The current study compares preferred tempo and the width of an entrainment region for 5- to 7-year-old typically developing (TD) children and children with DLD and considers the associations with rhythm aptitude and expressive grammar skills in the two populations. Preferred tempo was measured with a spontaneous motor tempo task (tapping tempo at a comfortable speed), and the width (range) of an entrainment region was measured by the difference between the upper (slow) and lower (fast) limits of tapping a rhythm normalized by an individual’s spontaneous motor tempo. Data from N = 16 children with DLD and N = 114 TD children showed that whereas entrainment-region width did not differ across the two groups, slowest motor tempo, the determinant of the upper (slow) limit of the entrainment region, was at a faster tempo in children with DLD vs. TD. In other words, the DLD group could not pace their slow tapping as slowly as the TD group. Entrainment-region width was positively associated with rhythm aptitude and receptive grammar even after taking into account potential confounding factors, whereas expressive grammar did not show an association with any of the tapping measures. Preferred tempo was not associated with any study variables after including covariates in the analyses. These results motivate future neuroscientific studies of low-frequency neural oscillatory mechanisms as the potential neural correlates of entrainment-region width and their associations with musical rhythm and spoken language processing in children with typical and atypical language development.

Published
2023
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40. Management of Anticoagulation/Antiplatelet Medication and Venous Thromboembolism Prophylaxis in Elective Spine Surgery: Concise Clinical Recommendations Based on a Modified Delphi Process

Author

Scott L. Zuckerman, Sigurd Berven, Michael B. Streiff, Mena Kerolus, Ian A. Buchanan, Alex Ha, Christopher M. Bonfield, Avery L. Buchholz, Jacob M. Buchowski, Shane Burch, Clinton J. Devin, John R. Dimar, Jeffrey L. Gum, Christopher Good, Han Jo Kim, Jun S. Kim, Joseph M. Lombardi, Christopher E. Mandigo, Mohamad Bydon, Mark E. Oppenlander, David W. Polly, Gregory Poulter, Suken A. Shah, Kern Singh, Khoi D. Than, Alex C. Spyropoulos, Scott Kaatz, Amit Jain, Richard W. Schutzer, Tina Z. Wang, Derek C. Mazique, Lawrence G. Lenke, and Ronald A. Lehman

Subjects
Orthopedics and Sports Medicine, Neurology (clinical)
Published
2022
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48. On the Nature of Timing Mechanisms in Cognition

Author

McAuley, J. Devin

Abstract

The ability to resolve timing differences within and between patterns is critical to the perception of music and speech; similarly, many motor skills such as music performance require fine temporal control of movements. Two important issues concern (1) the nature of the mechanism used for time measurement and (2) whether timing distinctions in perception and motor control are based on the same mechanism. In this paper, clock- and entrainment-based conceptions of time measurement are discussed; and predictions of both classes of model are then evaluated with respect to a tempo-discrimination experiment involving isochronous auditory sequences. The results from this experiment are shown to favor entrainment- over clock-based approaches to timing. The implications of these data are then discussed with respect to the hypothesized role of the cerebellum in timing.

Published
1996

49. Exploring individual differences in musical rhythm and grammar skills in school-aged children with typically developing language

Author

Nitin, R, Gustavson, D, Aaron, A, Boorom, O, Bush, C, Wiens, N, Vaughan, C, Persici, V, Blain, S, Soman, U, Hambrick, D, Camarata, S, Devin McAuley &amp, J, Gordon, R, Rachana Nitin, Daniel E. Gustavson, Allison S. Aaron, Olivia A. Boorom, Catherine T. Bush, Natalie Wiens, Chloe Vaughan, Valentina Persici, Scott D. Blain, Uma Soman, David Z. Hambrick, Stephen M. Camarata, J. Devin McAuley &, Reyna L. Gordon, Nitin, R, Gustavson, D, Aaron, A, Boorom, O, Bush, C, Wiens, N, Vaughan, C, Persici, V, Blain, S, Soman, U, Hambrick, D, Camarata, S, Devin McAuley &amp, J, Gordon, R, Rachana Nitin, Daniel E. Gustavson, Allison S. Aaron, Olivia A. Boorom, Catherine T. Bush, Natalie Wiens, Chloe Vaughan, Valentina Persici, Scott D. Blain, Uma Soman, David Z. Hambrick, Stephen M. Camarata, J. Devin McAuley &, and Reyna L. Gordon

Abstract

A growing number of studies have shown a connection between rhythmic processing and language skill. It has been proposed that domain-general rhythm abilities might help children to tap into the rhythm of speech (prosody), cueing them to prosodic markers of grammatical (syntactic) information during language acquisition, thus underlying the observed correlations between rhythm and language. Working memory processes common to task demands for musical rhythm discrimination and spoken language paradigms are another possible source of individual variance observed in musical rhythm and language abilities. To investigate the nature of the relationship between musical rhythm and expressive grammar skills, we adopted an individual differences approach in N = 132 elementary school-aged children ages 5–7, with typical language development, and investigated prosodic perception and working memory skills as possible mediators. Aligning with the literature, musical rhythm was correlated with expressive grammar performance (r = 0.41, p < 0.001). Moreover, musical rhythm predicted mastery of complex syntax items (r = 0.26, p = 0.003), suggesting a privileged role of hierarchical processing shared between musical rhythm processing and children’s acquisition of complex syntactic structures. These relationships between rhythm and grammatical skills were not mediated by prosodic perception, working memory, or non-verbal IQ; instead, we uncovered a robust direct effect of musical rhythm perception on grammatical task performance. Future work should focus on possible biological endophenotypes and genetic influences underlying this relationship.

Published
2023

50. Do pre‐transplant cultural factors predict health‐related quality of life after kidney transplantation?

Author

Loor, Jamie M., Ford, C. Graham, Leyva, Yuridia, Swift, Samuel, Ng, Yue Harn, Zhu, Yiliang, Dew, Mary Amanda, Peipert, J. Devin, Unruh, Mark L., Croswell, Emilee, Kendall, Kellee, Puttarajappa, Chethan, Shapiro, Ron, and Myaskovsky, Larissa

Subjects
QUALITY of life, SOCIOCULTURAL factors, KIDNEY transplantation, MEDICAL mistrust, HIGH school graduates
Abstract

Background: Post‐transplant health‐related quality of life (HRQOL) is associated with health outcomes for kidney transplant (KT) recipients. However, pretransplant predictors of improvements in post‐transplant HRQOL remain incompletely understood. Namely, important pretransplant cultural factors, such as experience of discrimination, perceived racism in healthcare, or mistrust of the healthcare system, have not been examined as potential HRQOL predictors. Also, few have examined predictors of decline in HRQOL post‐transplant. Methods: Using data from a prospective cohort study, we examined HRQOL change pre‐ to post‐transplant, and novel cultural predictors of the change. We measured physical, mental, and kidney‐specific HRQOL as outcomes, and used cultural factors as predictors, controlling for demographic, clinical, psychosocial, and transplant knowledge covariates. Results: Among 166 KT recipients (57% male; mean age 50.6 years; 61.4% > high school graduates; 80% non‐Hispanic White), we found mental and physical, but not kidney‐specific, HRQOL significantly improved post‐transplant. No culturally related factors outside of medical mistrust significantly predicted change in any HRQOL outcome. Instead, demographic, knowledge, and clinical factors significantly predicted decline in each HRQOL domain: physical HRQOL—older age, more post‐KT complications, higher pre‐KT physical HRQOL; mental HRQOL—having less information pre‐KT, greater pre‐KT mental HRQOL; and, kidney‐specific HRQOL—poorer kidney functioning post‐KT, lower expectations for physical condition to improve, and higher pre‐KT kidney‐specific HRQOL. Conclusions: Instead of cultural factors, predictors of HRQOL decline included demographic, knowledge, and clinical factors. These findings are useful for identifying patient groups that may be at greater risk of poorer post‐transplant outcomes, in order to target individualized support to patients. [ABSTRACT FROM AUTHOR]

Published
2024
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